The Heim Group reserves the right to change design or detail of its products without notice. Point of operation safety guarding or devices are the sole responsibility of the employer (user) of the machine as pr ovided in ANSI B11.1 (2001) as published by the American National Standar ds Institute, Inc. and OSHA r egulations.

“Heim” is a Reg. TM; “Maxi-Stamper” and “Stamping Out Downtime” are TM’s of The Heim Group. ©THG, 2009. All Rights Reserved.

6360 West 73rd Street, Chicago, IL 60638 | www.theheimgroup.comSales/Service: 708-496-7400 | 800-927-9393 | Fax: 708-496-7428 | Parts Fax: 708-496-0708 | Email: sales@theheimgroup.com

Two Point SpecificationsModel S2-200 S2-300 S2-400 S2-500 S2-600 S2-800 S2-1000

Capacity Tons 200 300 400 500 600 800 1000

Rating BDC .500 .500 .500 .500 .500 .500 .500

Stroke (STD) 6 8 8 8 8 12 12

Stroke (Max) 12 12 16 16 16 24 24

Bed/Slide Area 78x42 78x42 100x48 120x48 120x48 120x60 132x60

Bed/Slide Max 144x60 144x60 168x60 168x60 168x60 168x60 168x60

Shut Height 30 30 30 30 36 36 36

Bolster Thickness 6 6 8 8 10 10 12

Slide Adjustment 10 10 10 10 10 10 10

SPM (Fixed) 40 35 30 30 25 20 20

SPM (Variable) 30-60 25-50 20-40 20-40 20-40 15-30 15-30

Motor HP 20 30 40 50 60 100 125

Floor to Top of Bed 38 38 42 42 48 54 60

Window Opening 26/38 26/38 26/42 26/54 32/54 32/54 32/54

Specifications can be altered to meet your specific requirements.

Single Point SpecificationsModel S1-200 S1-300 S1-400 S1-500 S1-600

Capacity Tons 200 300 400 500 600

Rating BDC .500 .500 .500 .500 .500

Stroke (STD) 6 8 8 10 10

Stroke (MAX) 12 16 18 20 20

Bed/Slide Area 42 x 32 42 x 32 48 x 32 60 x 32 60 x 32

Shut Height 20 24 24 30 30

Bolster Thickness 4 4 6 6 8

Slide Adjustment 6 6 6 6 6

SPM (Fixed) 30 30 30 25 25

SPM (Variable) 20-40 20-40 20-40 20-40 20-40

Motor HP 20 30 40 50 60

Floor to Top of Bed 36 36 38 42 42

Specifications can be altered to meet your specific requirements.

Four Point SpecificationsModel S4-500 S4-600 S4-800 S4-1000

Capacity Tons 500 600 800 1000

Rating BDC .500 .500 .500 .500

Stroke (STD) 10 10 12 12

Stroke (Max) 18 18 24 24

27 x 02127 x 02127 x 02127 x 021aerA edilS/deB

Bed/Slide Area (Max) 168 x 84 192 x 84 192 x 84 192 x 84

S 24248383thgieH tuh

Bolster Thickness 8 8 10 10

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SPM (Fixed) 25 - 30 - 40 25 - 30 - 40 25 - 30 - 40 25 - 30

S 04 - 0204 - 0204 - 0204 - 02)elbairaV( MP

Motor HP 75 100 125 150

06068484deB fo poT ot roolF

Window Opening 60 60 60 60

STAMPING OUT DOWNTIME™

Maxi-StamperTM

| 200 to 1,000 Tons

®

®

®

®

Link MotionVariable Speed DriveProvisions for Die CushionsDie CushionsFlywheel BrakeTonnage IndicatorLight CurtainsSpecial Drilling and MachiningAdditional Operator StationsKnockout BarSpecial Bed SizesIsolator PadsCustom SpeedsCustom Systems InterfaceDie ProtectionHydraulic Clutch

Optional FeaturesStand ard Features Max i Stam per Feature DescriptionCombination Air Clutchand Brake

The quill mounted flywheel clutch is controlledthrough a solenoid operated dual air valve. The heavy duty low inertia combination clutchand brake withstands the stress of frequentstop and starts and repeated heavy shocks.The clutch is sized and selected for maximumcapability and high rotational energy andefficiency in dissipating heat that may begenerated during operation. The quill mountingof the clutch to the flywheel offers maximumsafety while offering ease of maintenance and replacement of normal wear items such as friction pads. Liners are replaced withoutremoving the flywheel or other majorcomponents.

Slide Mechanism The adjusting screw is threaded into the barrelsection of the connecting rod. The ball end ofthe adjusting screw is fitted into the socketconnection attached to the slide structure. Ball and socket connection allow forces to be distributed evenly that can provide greateroff center loading allowing for a higher snapthrough reverse loading during blanking. Alsohoused in this assembly is the slide elevationadjustment device. A slide adjustment drivemotor is mounted within the slide structure.Positive mechanical stops establish the limits of adjustment. A digital slide position indicatorprovides accurate display of slide position to .001”.

Hydraulic OverloadSystem The hydraulic overload system minimizes costly down time, and eliminates unnecessarydamage to the press and tooling. The overloaddevice incorporates a hydraulic cylinder locatedin the slide under the slide adjusting

Press ConstructionThe press is a fabricated steel design usingheavy main plate for each structure. The crown,bed and slide are a welded steel plate box typeconstruction. Our computer aided design paysparticular attention to strengthening areas incritical sections where load is being transmittedand where deflection can be reduced. Our fabrication designs provide for maximum rigidity and minimum deflections for the various directional stresses that a press can be subjected during stamping operations.Four tie rods pass through the structures andare pre-stressed to hold the structures incompression. The bed design has a deflectionof .0015” per foot of width at full load on a tool covering 2/3 of the bed area symmetricallyspaced on the left to right and front to backcenter lines.

Crown Mechanism The eccentric gear drive is housed in anenclosed crown structure and running in a bath of oil. Spur type eccentric gears withhelical intermediate gears are used on singleand two point presses and four point straightside presses. An eccentric strap, a solid steelplate connection, with replaceable bronzebearings connects the eccentric gear to theslide structure through a ball and socketconnection.

Eccentric Gear Drive With an eccentric gear drive the eccentric is an integral part of the main gear that rotates on a stationary pin supported in the crown. This gearing is very compact and with theeccentric being integral with the gear, torque is being transmitted directly from the gear to the eccentric eliminating all torsional load fromthe shaft. The drive rating is .500” from bottomstroke.

Hydraulic Tie Rod Nuts Each of the four tie rod nuts is fitted with a hydraulic piston. Each nut is connected to an air operated hydraulic pump. As pressure is built up by the pump the piston raises the nut stretching the tie rod. When the tie rod isstretched to the desired height, spacers areplaced under each nut. Pressure is thenreleased leaving the tie rods under tensionholding the press structures together.

Automatic LubricationThe press is furnished with an automaticrecirculating oil lubrication system whichlubricates all major bearings and components in the drive system as well as gibs andadjusting screws. The systems automaticallycycles the lube pump and divides the flow of oil in the correct proportions to each requiredpoint. The system continuously monitors forelectrical failure, pump failure, low oil level andline pressure. The master control panel flashesa warning that indicates a lubrication failure andstops the press.

Pneumatic ControlsAir pressure settings for the press can be easilyadjusted from floor level. Rugged glycerin filledgauges accurately display counterbalance andclutch brake air pressure. These controls aswell as filters, regulators, lubricators and otherair control elements are located in a control box mounted on a column of the press.

Solid State Press ControlTwo separately powered dual microprocessorsincorporate all the ANSI, OSHA and CSA safetyrequirements for press control reliability. Controlsare housed in a Nema 12 enclosure. The presscontroller monitors and governs all press functions. The main key lock selector switch has Off-Inch-Single Stroke-Continuous mode of operation. The operator control bar is supplied

with two guarded run/inch buttons, emergency stop palm button and prior action push button.Control also features forward/reverse switch, brake monitoring and stroke counter and touchscreen display for internal and externaldiagnostics. The microprocessor has ampleinputs and outputs along with limit switches for interface of ancillaries.

Installation and TrainingWhen shipped, the machine must be disassembled and placed on flat bed trucksfor transport. The Heim Group Service Engineers will install your press (excluding rigging) at your facility and provide training for your operators. Maxi-Stamper presses meet ANSI-B11.1 2005 press and electrical standards in accordance with section 4.

Point of OperationGuardingPoint of operation safety guarding or devices are the sole responsibility of theemployer (user) of the machine as provided in ANSI B11.1 2001 as published by the American National Standards Institute Inc., 1430 Broadway, New York, NY and OHSAregulations.

mechanism. The overload protection system is controlled by setting the desired trip tonnagethrough an air pressure regulator to the cylinderof the overload valve assembly. When anoverload is encountered pressure increases in the cylinder to the setting of the presetregulator. A relief valve opens allowing oil toflow and creating space within the cylinder.Simultaneously as the oil is dumped, a signal is sent to disengage the clutch and to stop thepress, while the slide travels approximately 1/2” (overload stroke) into the void left by the oil displacement avoiding an overload condition.

8 Point GibbingWide non-metallic way liners are bolted to theslide. All gibs are adjustable to insure accuratealignment of the slide in front to back and right to left directions. Ease of adjustment is assuredby use of a number of clamping and adjustingscrews. Extra long gibs having greater bearingarea retaining the slide fully and accurately inany position of the slide stroke and adjustment.

Counterbalance System All Maxi Stampers are equipped with adjustableair counterbalance cylinders to support theweight of the slide structure and weight ofupper die tooling. Adjustment of the airpressure allows for differences in upper dieweight, insures smooth operation through theentire press stroke and reduces breakthroughshock during blanking operations. Carbon fibercylinders, an innovative Heim design, providemaximum performance with minimal component wear and maintenance.

MADE IN THE USA

Steel Fabricated ConstructionDrive Capacity Rated 1/2” Above Bottom of StrokeSelf-Diagnostic Solid State ControllerMoveable Operator ConsoleLow Inertia Combination Air Clutch and BrakeTie Rod ConstructionEccentric Gear Drive System (In Oil Bath)Enclosed CrownBed Areas Up to 192” x 84”Motorized Slide Adjustment with Digital Position Indicator Adjustable, Full Length 8 Point Square Gibbing Recirculating Lubrication SystemHelical Intermediate GearsDual Air ValveAir Counterbalance SystemHydraulic Overload SystemBall Type Adjusting Screw with Bronze SeatBrake Monitor with Light IndicatorShut Height to Your RequirementsBolster Plate Forward/Reverse Selector SwitchElectric CountersT-Slotted Slide and BolsterHydraulic Tie Rod NutsBed Deflection .0015” Per Foot

Eccentric Gear Drive

Link MotionVariable Speed DriveProvisions for Die CushionsDie CushionsFlywheel BrakeTonnage IndicatorLight CurtainsSpecial Drilling and MachiningAdditional Operator StationsKnockout BarSpecial Bed SizesIsolator PadsCustom SpeedsCustom Systems InterfaceDie ProtectionHydraulic Clutch

Optional FeaturesStand ard Features Max i Stam per Feature DescriptionCombination Air Clutchand Brake

The quill mounted flywheel clutch is controlledthrough a solenoid operated dual air valve. The heavy duty low inertia combination clutchand brake withstands the stress of frequentstop and starts and repeated heavy shocks.The clutch is sized and selected for maximumcapability and high rotational energy andefficiency in dissipating heat that may begenerated during operation. The quill mountingof the clutch to the flywheel offers maximumsafety while offering ease of maintenance and replacement of normal wear items such as friction pads. Liners are replaced withoutremoving the flywheel or other majorcomponents.

Slide Mechanism The adjusting screw is threaded into the barrelsection of the connecting rod. The ball end ofthe adjusting screw is fitted into the socketconnection attached to the slide structure. Ball and socket connection allow forces to be distributed evenly that can provide greateroff center loading allowing for a higher snapthrough reverse loading during blanking. Alsohoused in this assembly is the slide elevationadjustment device. A slide adjustment drivemotor is mounted within the slide structure.Positive mechanical stops establish the limits of adjustment. A digital slide position indicatorprovides accurate display of slide position to .001”.

Hydraulic OverloadSystem The hydraulic overload system minimizes costly down time, and eliminates unnecessarydamage to the press and tooling. The overloaddevice incorporates a hydraulic cylinder locatedin the slide under the slide adjusting

Press ConstructionThe press is a fabricated steel design usingheavy main plate for each structure. The crown,bed and slide are a welded steel plate box typeconstruction. Our computer aided design paysparticular attention to strengthening areas incritical sections where load is being transmittedand where deflection can be reduced. Our fabrication designs provide for maximum rigidity and minimum deflections for the various directional stresses that a press can be subjected during stamping operations.Four tie rods pass through the structures andare pre-stressed to hold the structures incompression. The bed design has a deflectionof .0015” per foot of width at full load on a tool covering 2/3 of the bed area symmetricallyspaced on the left to right and front to backcenter lines.

Crown Mechanism The eccentric gear drive is housed in anenclosed crown structure and running in a bath of oil. Spur type eccentric gears withhelical intermediate gears are used on singleand two point presses and four point straightside presses. An eccentric strap, a solid steelplate connection, with replaceable bronzebearings connects the eccentric gear to theslide structure through a ball and socketconnection.

Eccentric Gear Drive With an eccentric gear drive the eccentric is an integral part of the main gear that rotates on a stationary pin supported in the crown. This gearing is very compact and with theeccentric being integral with the gear, torque is being transmitted directly from the gear to the eccentric eliminating all torsional load fromthe shaft. The drive rating is .500” from bottomstroke.

Hydraulic Tie Rod Nuts Each of the four tie rod nuts is fitted with a hydraulic piston. Each nut is connected to an air operated hydraulic pump. As pressure is built up by the pump the piston raises the nut stretching the tie rod. When the tie rod isstretched to the desired height, spacers areplaced under each nut. Pressure is thenreleased leaving the tie rods under tensionholding the press structures together.

Automatic LubricationThe press is furnished with an automaticrecirculating oil lubrication system whichlubricates all major bearings and components in the drive system as well as gibs andadjusting screws. The systems automaticallycycles the lube pump and divides the flow of oil in the correct proportions to each requiredpoint. The system continuously monitors forelectrical failure, pump failure, low oil level andline pressure. The master control panel flashesa warning that indicates a lubrication failure andstops the press.

Pneumatic ControlsAir pressure settings for the press can be easilyadjusted from floor level. Rugged glycerin filledgauges accurately display counterbalance andclutch brake air pressure. These controls aswell as filters, regulators, lubricators and otherair control elements are located in a control box mounted on a column of the press.

Solid State Press ControlTwo separately powered dual microprocessorsincorporate all the ANSI, OSHA and CSA safetyrequirements for press control reliability. Controlsare housed in a Nema 12 enclosure. The presscontroller monitors and governs all press functions. The main key lock selector switch has Off-Inch-Single Stroke-Continuous mode of operation. The operator control bar is supplied

with two guarded run/inch buttons, emergency stop palm button and prior action push button.Control also features forward/reverse switch, brake monitoring and stroke counter and touchscreen display for internal and externaldiagnostics. The microprocessor has ampleinputs and outputs along with limit switches for interface of ancillaries.

Installation and TrainingWhen shipped, the machine must be disassembled and placed on flat bed trucksfor transport. The Heim Group Service Engineers will install your press (excluding rigging) at your facility and provide training for your operators. Maxi-Stamper presses meet ANSI-B11.1 2005 press and electrical standards in accordance with section 4.

Point of OperationGuardingPoint of operation safety guarding or devices are the sole responsibility of theemployer (user) of the machine as provided in ANSI B11.1 2001 as published by the American National Standards Institute Inc., 1430 Broadway, New York, NY and OHSAregulations.

mechanism. The overload protection system is controlled by setting the desired trip tonnagethrough an air pressure regulator to the cylinderof the overload valve assembly. When anoverload is encountered pressure increases in the cylinder to the setting of the presetregulator. A relief valve opens allowing oil toflow and creating space within the cylinder.Simultaneously as the oil is dumped, a signal is sent to disengage the clutch and to stop thepress, while the slide travels approximately 1/2” (overload stroke) into the void left by the oil displacement avoiding an overload condition.

8 Point GibbingWide non-metallic way liners are bolted to theslide. All gibs are adjustable to insure accuratealignment of the slide in front to back and right to left directions. Ease of adjustment is assuredby use of a number of clamping and adjustingscrews. Extra long gibs having greater bearingarea retaining the slide fully and accurately inany position of the slide stroke and adjustment.

Counterbalance System All Maxi Stampers are equipped with adjustableair counterbalance cylinders to support theweight of the slide structure and weight ofupper die tooling. Adjustment of the airpressure allows for differences in upper dieweight, insures smooth operation through theentire press stroke and reduces breakthroughshock during blanking operations. Carbon fibercylinders, an innovative Heim design, providemaximum performance with minimal component wear and maintenance.

MADE IN THE USA

Steel Fabricated ConstructionDrive Capacity Rated 1/2” Above Bottom of StrokeSelf-Diagnostic Solid State ControllerMoveable Operator ConsoleLow Inertia Combination Air Clutch and BrakeTie Rod ConstructionEccentric Gear Drive System (In Oil Bath)Enclosed CrownBed Areas Up to 192” x 84”Motorized Slide Adjustment with Digital Position Indicator Adjustable, Full Length 8 Point Square Gibbing Recirculating Lubrication SystemHelical Intermediate GearsDual Air ValveAir Counterbalance SystemHydraulic Overload SystemBall Type Adjusting Screw with Bronze SeatBrake Monitor with Light IndicatorShut Height to Your RequirementsBolster Plate Forward/Reverse Selector SwitchElectric CountersT-Slotted Slide and BolsterHydraulic Tie Rod NutsBed Deflection .0015” Per Foot

Eccentric Gear Drive

Link MotionVariable Speed DriveProvisions for Die CushionsDie CushionsFlywheel BrakeTonnage IndicatorLight CurtainsSpecial Drilling and MachiningAdditional Operator StationsKnockout BarSpecial Bed SizesIsolator PadsCustom SpeedsCustom Systems InterfaceDie ProtectionHydraulic Clutch

Optional FeaturesStand ard Features Max i Stam per Feature DescriptionCombination Air Clutchand Brake

The quill mounted flywheel clutch is controlledthrough a solenoid operated dual air valve. The heavy duty low inertia combination clutchand brake withstands the stress of frequentstop and starts and repeated heavy shocks.The clutch is sized and selected for maximumcapability and high rotational energy andefficiency in dissipating heat that may begenerated during operation. The quill mountingof the clutch to the flywheel offers maximumsafety while offering ease of maintenance and replacement of normal wear items such as friction pads. Liners are replaced withoutremoving the flywheel or other majorcomponents.

Slide Mechanism The adjusting screw is threaded into the barrelsection of the connecting rod. The ball end ofthe adjusting screw is fitted into the socketconnection attached to the slide structure. Ball and socket connection allow forces to be distributed evenly that can provide greateroff center loading allowing for a higher snapthrough reverse loading during blanking. Alsohoused in this assembly is the slide elevationadjustment device. A slide adjustment drivemotor is mounted within the slide structure.Positive mechanical stops establish the limits of adjustment. A digital slide position indicatorprovides accurate display of slide position to .001”.

Hydraulic OverloadSystem The hydraulic overload system minimizes costly down time, and eliminates unnecessarydamage to the press and tooling. The overloaddevice incorporates a hydraulic cylinder locatedin the slide under the slide adjusting

Press ConstructionThe press is a fabricated steel design usingheavy main plate for each structure. The crown,bed and slide are a welded steel plate box typeconstruction. Our computer aided design paysparticular attention to strengthening areas incritical sections where load is being transmittedand where deflection can be reduced. Our fabrication designs provide for maximum rigidity and minimum deflections for the various directional stresses that a press can be subjected during stamping operations.Four tie rods pass through the structures andare pre-stressed to hold the structures incompression. The bed design has a deflectionof .0015” per foot of width at full load on a tool covering 2/3 of the bed area symmetricallyspaced on the left to right and front to backcenter lines.

Crown Mechanism The eccentric gear drive is housed in anenclosed crown structure and running in a bath of oil. Spur type eccentric gears withhelical intermediate gears are used on singleand two point presses and four point straightside presses. An eccentric strap, a solid steelplate connection, with replaceable bronzebearings connects the eccentric gear to theslide structure through a ball and socketconnection.

Eccentric Gear Drive With an eccentric gear drive the eccentric is an integral part of the main gear that rotates on a stationary pin supported in the crown. This gearing is very compact and with theeccentric being integral with the gear, torque is being transmitted directly from the gear to the eccentric eliminating all torsional load fromthe shaft. The drive rating is .500” from bottomstroke.

Hydraulic Tie Rod Nuts Each of the four tie rod nuts is fitted with a hydraulic piston. Each nut is connected to an air operated hydraulic pump. As pressure is built up by the pump the piston raises the nut stretching the tie rod. When the tie rod isstretched to the desired height, spacers areplaced under each nut. Pressure is thenreleased leaving the tie rods under tensionholding the press structures together.

Automatic LubricationThe press is furnished with an automaticrecirculating oil lubrication system whichlubricates all major bearings and components in the drive system as well as gibs andadjusting screws. The systems automaticallycycles the lube pump and divides the flow of oil in the correct proportions to each requiredpoint. The system continuously monitors forelectrical failure, pump failure, low oil level andline pressure. The master control panel flashesa warning that indicates a lubrication failure andstops the press.

Pneumatic ControlsAir pressure settings for the press can be easilyadjusted from floor level. Rugged glycerin filledgauges accurately display counterbalance andclutch brake air pressure. These controls aswell as filters, regulators, lubricators and otherair control elements are located in a control box mounted on a column of the press.

Solid State Press ControlTwo separately powered dual microprocessorsincorporate all the ANSI, OSHA and CSA safetyrequirements for press control reliability. Controlsare housed in a Nema 12 enclosure. The presscontroller monitors and governs all press functions. The main key lock selector switch has Off-Inch-Single Stroke-Continuous mode of operation. The operator control bar is supplied

with two guarded run/inch buttons, emergency stop palm button and prior action push button.Control also features forward/reverse switch, brake monitoring and stroke counter and touchscreen display for internal and externaldiagnostics. The microprocessor has ampleinputs and outputs along with limit switches for interface of ancillaries.

Installation and TrainingWhen shipped, the machine must be disassembled and placed on flat bed trucksfor transport. The Heim Group Service Engineers will install your press (excluding rigging) at your facility and provide training for your operators. Maxi-Stamper presses meet ANSI-B11.1 2005 press and electrical standards in accordance with section 4.

Point of OperationGuardingPoint of operation safety guarding or devices are the sole responsibility of theemployer (user) of the machine as provided in ANSI B11.1 2001 as published by the American National Standards Institute Inc., 1430 Broadway, New York, NY and OHSAregulations.

mechanism. The overload protection system is controlled by setting the desired trip tonnagethrough an air pressure regulator to the cylinderof the overload valve assembly. When anoverload is encountered pressure increases in the cylinder to the setting of the presetregulator. A relief valve opens allowing oil toflow and creating space within the cylinder.Simultaneously as the oil is dumped, a signal is sent to disengage the clutch and to stop thepress, while the slide travels approximately 1/2” (overload stroke) into the void left by the oil displacement avoiding an overload condition.

8 Point GibbingWide non-metallic way liners are bolted to theslide. All gibs are adjustable to insure accuratealignment of the slide in front to back and right to left directions. Ease of adjustment is assuredby use of a number of clamping and adjustingscrews. Extra long gibs having greater bearingarea retaining the slide fully and accurately inany position of the slide stroke and adjustment.

Counterbalance System All Maxi Stampers are equipped with adjustableair counterbalance cylinders to support theweight of the slide structure and weight ofupper die tooling. Adjustment of the airpressure allows for differences in upper dieweight, insures smooth operation through theentire press stroke and reduces breakthroughshock during blanking operations. Carbon fibercylinders, an innovative Heim design, providemaximum performance with minimal component wear and maintenance.

MADE IN THE USA

Steel Fabricated ConstructionDrive Capacity Rated 1/2” Above Bottom of StrokeSelf-Diagnostic Solid State ControllerMoveable Operator ConsoleLow Inertia Combination Air Clutch and BrakeTie Rod ConstructionEccentric Gear Drive System (In Oil Bath)Enclosed CrownBed Areas Up to 192” x 84”Motorized Slide Adjustment with Digital Position Indicator Adjustable, Full Length 8 Point Square Gibbing Recirculating Lubrication SystemHelical Intermediate GearsDual Air ValveAir Counterbalance SystemHydraulic Overload SystemBall Type Adjusting Screw with Bronze SeatBrake Monitor with Light IndicatorShut Height to Your RequirementsBolster Plate Forward/Reverse Selector SwitchElectric CountersT-Slotted Slide and BolsterHydraulic Tie Rod NutsBed Deflection .0015” Per Foot

Eccentric Gear Drive

The Heim Group reserves the right to change design or detail of its products without notice. Point of operation safety guarding or devices are the sole responsibility of the employer (user) of the machine as pr ovided in ANSI B11.1 (2001) as published by the American National Standar ds Institute, Inc. and OSHA r egulations.

“Heim” is a Reg. TM; “Maxi-Stamper” and “Stamping Out Downtime” are TM’s of The Heim Group. ©THG, 2009. All Rights Reserved.

6360 West 73rd Street, Chicago, IL 60638 | www.theheimgroup.comSales/Service: 708-496-7400 | 800-927-9393 | Fax: 708-496-7428 | Parts Fax: 708-496-0708 | Email: sales@theheimgroup.com

Two Point SpecificationsModel S2-200 S2-300 S2-400 S2-500 S2-600 S2-800 S2-1000

Capacity Tons 200 300 400 500 600 800 1000

Rating BDC .500 .500 .500 .500 .500 .500 .500

Stroke (STD) 6 8 8 8 8 12 12

Stroke (Max) 12 12 16 16 16 24 24

Bed/Slide Area 78x42 78x42 100x48 120x48 120x48 120x60 132x60

Bed/Slide Max 144x60 144x60 168x60 168x60 168x60 168x60 168x60

Shut Height 30 30 30 30 36 36 36

Bolster Thickness 6 6 8 8 10 10 12

Slide Adjustment 10 10 10 10 10 10 10

SPM (Fixed) 40 35 30 30 25 20 20

SPM (Variable) 30-60 25-50 20-40 20-40 20-40 15-30 15-30

Motor HP 20 30 40 50 60 100 125

Floor to Top of Bed 38 38 42 42 48 54 60

Window Opening 26/38 26/38 26/42 26/54 32/54 32/54 32/54

Specifications can be altered to meet your specific requirements.

Single Point SpecificationsModel S1-200 S1-300 S1-400 S1-500 S1-600

Capacity Tons 200 300 400 500 600

Rating BDC .500 .500 .500 .500 .500

Stroke (STD) 6 8 8 10 10

Stroke (MAX) 12 16 18 20 20

Bed/Slide Area 42 x 32 42 x 32 48 x 32 60 x 32 60 x 32

Shut Height 20 24 24 30 30

Bolster Thickness 4 4 6 6 8

Slide Adjustment 6 6 6 6 6

SPM (Fixed) 30 30 30 25 25

SPM (Variable) 20-40 20-40 20-40 20-40 20-40

Motor HP 20 30 40 50 60

Floor to Top of Bed 36 36 38 42 42

Specifications can be altered to meet your specific requirements.

Four Point SpecificationsModel S4-500 S4-600 S4-800 S4-1000

Capacity Tons 500 600 800 1000

Rating BDC .500 .500 .500 .500

Stroke (STD) 10 10 12 12

Stroke (Max) 18 18 24 24

27 x 02127 x 02127 x 02127 x 021aerA edilS/deB

Bed/Slide Area (Max) 168 x 84 192 x 84 192 x 84 192 x 84

S 24248383thgieH tuh

Bolster Thickness 8 8 10 10

01010101tnemtsujdA edilS

SPM (Fixed) 25 - 30 - 40 25 - 30 - 40 25 - 30 - 40 25 - 30

S 04 - 0204 - 0204 - 0204 - 02)elbairaV( MP

Motor HP 75 100 125 150

06068484deB fo poT ot roolF

Window Opening 60 60 60 60

STAMPING OUT DOWNTIME™

Maxi-StamperTM

| 200 to 1,000 Tons

®

®

®

®

The Heim Group reserves the right to change design or detail of its products without notice. Point of operation safety guarding or devices are the sole responsibility of the employer (user) of the machine as pr ovided in ANSI B11.1 (2001) as published by the American National Standar ds Institute, Inc. and OSHA r egulations.

“Heim” is a Reg. TM; “Maxi-Stamper” and “Stamping Out Downtime” are TM’s of The Heim Group. ©THG, 2009. All Rights Reserved.

6360 West 73rd Street, Chicago, IL 60638 | www.theheimgroup.comSales/Service: 708-496-7400 | 800-927-9393 | Fax: 708-496-7428 | Parts Fax: 708-496-0708 | Email: sales@theheimgroup.com

Two Point SpecificationsModel S2-200 S2-300 S2-400 S2-500 S2-600 S2-800 S2-1000

Capacity Tons 200 300 400 500 600 800 1000

Rating BDC .500 .500 .500 .500 .500 .500 .500

Stroke (STD) 6 8 8 8 8 12 12

Stroke (Max) 12 12 16 16 16 24 24

Bed/Slide Area 78x42 78x42 100x48 120x48 120x48 120x60 132x60

Bed/Slide Max 144x60 144x60 168x60 168x60 168x60 168x60 168x60

Shut Height 30 30 30 30 36 36 36

Bolster Thickness 6 6 8 8 10 10 12

Slide Adjustment 10 10 10 10 10 10 10

SPM (Fixed) 40 35 30 30 25 20 20

SPM (Variable) 30-60 25-50 20-40 20-40 20-40 15-30 15-30

Motor HP 20 30 40 50 60 100 125

Floor to Top of Bed 38 38 42 42 48 54 60

Window Opening 26/38 26/38 26/42 26/54 32/54 32/54 32/54

Specifications can be altered to meet your specific requirements.

Single Point SpecificationsModel S1-200 S1-300 S1-400 S1-500 S1-600

Capacity Tons 200 300 400 500 600

Rating BDC .500 .500 .500 .500 .500

Stroke (STD) 6 8 8 10 10

Stroke (MAX) 12 16 18 20 20

Bed/Slide Area 42 x 32 42 x 32 48 x 32 60 x 32 60 x 32

Shut Height 20 24 24 30 30

Bolster Thickness 4 4 6 6 8

Slide Adjustment 6 6 6 6 6

SPM (Fixed) 30 30 30 25 25

SPM (Variable) 20-40 20-40 20-40 20-40 20-40

Motor HP 20 30 40 50 60

Floor to Top of Bed 36 36 38 42 42

Specifications can be altered to meet your specific requirements.

Four Point SpecificationsModel S4-500 S4-600 S4-800 S4-1000

Capacity Tons 500 600 800 1000

Rating BDC .500 .500 .500 .500

Stroke (STD) 10 10 12 12

Stroke (Max) 18 18 24 24

27 x 02127 x 02127 x 02127 x 021aerA edilS/deB

Bed/Slide Area (Max) 168 x 84 192 x 84 192 x 84 192 x 84

S 24248383thgieH tuh

Bolster Thickness 8 8 10 10

01010101tnemtsujdA edilS

SPM (Fixed) 25 - 30 - 40 25 - 30 - 40 25 - 30 - 40 25 - 30

S 04 - 0204 - 0204 - 0204 - 02)elbairaV( MP

Motor HP 75 100 125 150

06068484deB fo poT ot roolF

Window Opening 60 60 60 60

STAMPING OUT DOWNTIME™

Maxi-StamperTM

| 200 to 1,000 Tons

®

®

®

®